Polymeric Protecting Groups. 6. Synthesis of a Novel N

Polymeric Protecting Groups. 6. Synthesis of a Novel N-Ethenoxyamino-Modified tert-Butoxycarbonyl-Type Amino Protecting Group. Marcus Gormanns, and ...
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5227

Macromolecules 1994,27, 5221-5228

Communications to the Editor Scheme 1.

Polymeric Protecting Groups. 6.t Synthesis of a Novel N-Ethenoxyamino-Modified tert-Butoxycarbonyl-TypeAmino Protecting Group

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Marcus Gormanns and Helmut Ritter' Organische Chemie, Bergische Universitiit Wuppertal, Fachbereich 9, Gausstrasse 20, 0-42097 Wuppertal, Germany

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Received April 29, 1994

Introduction. The classical tert-butoxywbonyl (BOC) protecting group is still one of the most important amino protecting groups24 and has enriched peptide chemistry since its discovery by Carpino, McKay, and Albertson in 1957.6~~ The tert-butylrest offers advantages of resistance against strong alkali, catalytic hydrogenation, and reduction by Na. Therefore, the BOC group, for example, is the ideal partner of the Z group in peptide chemistry. In the field of solid-phase peptide synthesis the classical BOC group, for example, is used as a side group of a polystyrene resin known as the commercially available "Merrifield Hydrazide Resinna7 Trifluoroacetic acid is often a convenient reagent for the removal of the classical BOC group, but much more acidic reagents are used under the formation of isobutene and carbon d i o ~ i d e . ~ t ~ Our interest in the chemistry of the BOC group led to the development of N-acylamino-modified BOC-type protecting groups.lPs1l They show a peculiar cleavage mechanism under the formation of 4,5-dihydrooxazole derivatives according to Scheme 1. In our previous paperslysll we described the synthesis and the behavior of some low-molecular, monomeric and polymeric N-acylamino-modified BOC derivatives. The reactivities relative to the acid-induced cleavage and the solubilities of these derivatives are controlled by the N-acyl moiety. For extension of our concept to modify the BOC group, the present paper deals with the synthesis of the vinyl compound l,l-dimethyl-2-(ethoxymethanamido)ethyl [N-(4-chlorophenyl)aminolmethanoate(5) and ita behavior as a polymeric protecting group. Kinetic measurements of the deprotection of this model compound are followed by means of lH NMR spectroscopy. Results and Discussion. The reaction of vinyl chloroformate (1) with 3-amino-2-methyl-2-propanol(2)12 was carried out in THF in the presence of triethylamine to give N-(2-hydroxy-2-methylpropyl)vinylcarbamate(3)l3 (Scheme 2). In order to obtain the desired monomer 1,l-dimethyl2-(ethenoxymethanamido)ethyl [N-(4-chloropheny1)aminolmethanoate (51, the urethane-modified tert-butyl alcohol 3 was reacted with 4-chlorophenyl isocyanate (4) as a model amino compound in boiling benzene in the presence of DMAP as catalyst14 (Scheme 3). Furthermore, monomer 5 was homo- and copolymerized with 2,2'-azobis(isobutyronitrile) (AIBN) as a radical +Part 5 cf. ref 1.

a R 1 = N-acyl-modification, e.g., alkyl, methacryl; protected amine

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Scheme 2 CH3 I IIZN-cIIz--C-OIl

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I CH3

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2

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CH3

HzC*C-O-C-N-CH?-C-OII I

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Scheme 3 H CH? I I * II~C-C-O-C-N-ClI~-C-011

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H ~ C -H C I -C)-C-N-CII~-C y 4- O 3 -C-N~--CI

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chart I

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initiator with methyl acrylate yielding polymers 616 and (Chart l),that are soluble in many organic solvents like benzene, chloroform, THF, and DMF. The composition of the copolymer was determined by means of 1H NMR spectroscopy and elemental analysis. 716

0024-9297/94/2227-5227$04.50 f 0 0 1994 American Chemical Society

5228 Communications to the Editor a

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Macromolecules, Vol. 27, No. 18, 1994 --

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References and Notes (1) Gormanns, M.; Ritter, H. Makromol. Chem. 1993,194,2615. (2) Barany, G.; Kneib-Cordonier, N.; Mullen, D. G. Int. J.Peptide Protein Res. 1987.30. 705. (3)Wieland, T.; Bodansky, M. The World of Peptides; Springer: Berlin, 1991.

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Figure 1. Time/log conversion plot for the TFA-induced cleavage of chloroaniline. Table 1. Half-time Values T and Reaction Rate Constants for the Deprotection of Homopolymer 6 and Copolymer 7 6 7 T in TFA (min) 70 45 T in TFA/CaC12 (min) 30 25 T in HBr/HOAc (min)